Defined covalent assembly of protein molecules on graphene using a genetically encoded photochemical reaction handle
We have created modified protein variants by introducing a non-canonical amino acid p-azido-L-phenylalanine (azF) into a defined positions for photochemically-induced covalent attachment to graphene. Attachment of GFP, TEM and cyt b 562 proteins was verified through a combination of atomic force and scanning tunnelling microscopy, resistance measurements, Raman data and fluorescence measurements. This method can in principle be extended to any protein which can be engineered in this way without adversely affecting its structural stability.
Data files used in this publication include
AFM and STM files
Raman data (used for figure 11 and in the supporting information)
Confocal microscopy data files (used for figure 5 fluorescence images)
Research results based upon these data are published at http://doi.org/10.1039/C7RA11166E
Funding
Electron transfer in engineered single protein molecules
Engineering and Physical Sciences Research Council
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Specialist software required to view data files
Gwyddion (open source) or other SPM software for Nanoscope III SPM data. Python-bioformats for CZI Image format for microscopes or other.Language(s) in dataset
- English-Great Britain (EN-GB)